Isolation of a crustaceann-acetyl-d-glucosamine-1-phosphate transferase and its activation by phospholipids

Summary Then-acetyl-d-glucosamine-1-phosphate: dolichol phosphate transferase fromArtemia has been partially purified and characterized. The enzyme is solubilized from crude microsomes using Triton X-100, and after detergent removal appears to be associated with phospholipids. Using dolichol phosphate and UDP-n-acetyl-d-glucosamine as substrates, the enzyme catalyzes the formation of dolichol-pyrophosphate-n-acetyl-d-glucosamine. the product identity has been verified by TLC and paper chromatography following mild acid hydrolysis. Under the incubation conditions used only one product is made, i.e., Dol-p-p-GlcNAc. The formation of product is linear with increasing amounts of added protein and with time of incubation. The enzyme requires magnesium ions for activity. Activity of the enzyme is stimulated 6-fold by exogenous dolichol phosphate and is also stimulated by added phospholipids, with optimal activity being obtained in the presence of mixtures of phosphatidylcholine and phosphatidylglycerol. Enzymatic activity is not increased upon addition of GDP-mannose or dolichol phosphate mannose. The enzyme is rapidly inactivated by exposure to several detergents, including Triton X-100 and deoxycholate. The activity is inhibited by tunicamycin and by the purified B₂ homologue of this antibiotic. Other antibiotic inhibitors such as diumycin and polyoxin D have little effect on the enzyme. Both the microsomal and solubilized enzyme preparations are inactivated by 70% upon treatment with phospholipase A₂; activity may be restored by addition of phospholipids. Following hydrophobic interaction chromatography on Phenyl Sepharose, gel filtration chromatography on Sepharose CL-4B indicated that the enzyme, purified 81-fold, contained phophatidylcholine and phosphatidyl-ethanolamine.Abbreviations SDS sodium dodecyl sulfate - PMSF phenyl methanesulfonylfluoride - HEPES 4-(2-hydroxyethyl)-1-piperazineethane sulfonic acid - GlcNAc N-acetyl-d-glucosamine - Dol-PP-GlcNAc dolichol pyrophosphate N-acetyl-d-glucosamine - Dol-P-man dolichol-phosphate-mannose - Dol-PP- (GlcNAc)₂ dolichol-pyrophosphate-di-N- acetylchitobiose - DMSO dimethylsulfoxide - C:M (2:1) chloroform:methanol (2:1) - C:M:W (10:10:3) chloroform:methanol:water (10:10:3) - GlcNAc-1-P N-acetyl-d-glucosamine-1-phosphate - Dol-P dolichol phosphate - EGTA ethylene glycol bis (b-aminoethyl ether)-NNNN tetraacetic acid     

Lipid Composition in Scrapie-Infected Mouse Brain: Prion Infection Increases the Levels of Dolichyl Phosphate and Ubiquinone

Abstract: The neutral and phospholipid composition of mouse brain infected with scrapie prions was investigated. During the later stages of this disease, the level of dolichol decreased by 30% whereas the level of dolichyl phosphate increased by 30%. In terminally ill mice, there was also a 2.5-fold increase in both total ubiquinone and its reduced form. Furthermore, α-tocopherol was elevated at this stage by 50%. In contrast, no changes were observed in phospholipid amount, in phospholipid composition, and in phosphatidylethanolamine plasmalogen content during the entire disease process. The fatty acid and aldehyde composition of individual phospholipids remained unaltered as well. No modifications could be detected in cholesterol content. Thus, the majority of membrane lipids in scrapie-infected mouse brain are modified in neither quantity nor structure, but specific changes occur to a few polyisoprenoid lipids. This specificity indicates that, although prions accumulate in lysosomes, the infection process is not associated with a general membrane destruction caused by lysosomal enzyme leakage.     

磷脂DMPC Langmuir－Blodgett膜晶格结构的原子力显微镜研究

用原子力显微镜（ＡＦＭ）研究了磷脂ＤＭＰＣ三层Ｌａｎｇｍｕｉｒ－Ｂｌｏｄｇｅｔｔ（ＬＢ）膜的分子排列结构,结果表明：在磷脂ＬＢ膜的两相（液体压缩相Ｌｉｑｕｉｄ－ｃｏｎｄｅｎｓｅｄｐｈａｓｅ和液体扩张相Ｌｉｑｕｉｄ－ｅｘｐａｎｄｅｄｐｈａｓｅ）共存时,液体压缩相中的磷脂分子排列紧密,取向一致,分子间作用力较大,因而能够得到分子图像。而液体扩张相中的磷脂分子排列松散,取向混乱。分子间的作用力较弱,难于得到分子图像。在液体压缩相中磷脂分子以单斜晶格结构排列,分子间隔为０．７２ｎｍ．分子高度为２．１ｎｍ。这一结果和ＤＭＰＣ的单晶结构进行了比较。     

GM_3对小鼠腹腔巨噬细胞磷脂代谢转换率的影响

神经节苷脂ＧＭ_３对小鼠腹腔常驻巨噬细胞（Ｒ－Ｍ）和Ｇｅ－１３２体内激活的巨噬细胞（Ｇｅ－１３２－Ｍ）的磷脂代谢转换有显著的影响,当这两种Ｍ在体外用ＧＭ_３处理时,表现出［￣（３２）Ｐ］Ｐｉ和［￣３Ｈ］肌醇参入ＰＩ降低,参入ＰＩＰ、ＰＩＰ_２增加;但在［￣（３２）Ｐ］Ｐｉ和［￣３Ｈ］胆碱参入ＰＣ上,Ｒ－Ｍ与Ｇｅ－１３２－Ｍ不同,即ＧＭ_３促进同位素前体参入Ｒ－Ｍ的ＰＣ,抑制它们参入Ｇｅ－１３２－Ｍ的ＰＣ．以上结果表明ＧＭ３可能提高了ＰＩ或ＰＩＰ的磷酸激酶的活性,致使［￣（３２）Ｐ］ＰＩＰ和［￣（３２）Ｐ］ＰＩＰ_２增多,［￣（３２）Ｐ］ＰＩ减少．激活的Ｍ（Ｇｅ－１３２－Ｍ）本身ＰＣ代谢转换率较Ｒ－Ｍ高,当Ｇｅ－１３２－Ｍ再受ＧＭ_３刺激,ＰＣ代谢转换率降低,这提示ＧＭ_３对激活的Ｍ的ＰＣ代谢转换有调节作用．     

Interaction of chlorpromazine with phospholipid membranes

The interaction of chlorpromazine (CPZ) with artificial membranes (egg-yolk phosphatidylcholine liposomes) has been studied. Measurements of the surface electric potential, which is modified in the presence of the ionized form of the drug, were obtained by electron paramagnetic resonance spectroscopy (EPR) using a positively charged amphiphilic spin-probe. This probe partitions between the aqueous and lipidic phases depending on the surface potential and on the structural state of the membrane. The surface potential was measured as a function of drug concentration in the range where the spectral line-shapes are not affected by the incorporation of the drug. From these experimental results and through an appropriate formalism we obtain information on the binding of the drug to the lipid bilayer and on the ionization of the drug in the lipidic phase. Correspondence to: C. Anteneodo     

Membrane fatty acid composition of tissues is related to body mass of mammals

Phospholipids were extracted from tissues (heart, skeletal muscle, kidney cortex, liver and brain) of mammals representing a 9,000-fold range in body mass (mouse, rat, rabbit, sheep and cattle) and their fatty acid composition was determined. In heart, skeletal muscle and kidney cortex, there were significant allometric decreases in the Unsaturation Index (UI; average number of double bonds per 100 fatty acid molecules) with increasing body mass. There were significant inverse allometric relationships between body mass and the proportion of docosahexaenoic acid (2263) in heart and skeletal muscle. In heart, skeletal muscle and kidney cortex, larger mammals also had shorter fatty acid chains in their phospholipids and a higher proportion of monounsaturates. In liver, smaller mammals had a higher UI than larger mammals (except the rabbit, which had the lowest UI and very low proportions of 3 fatty acids). The brain of all mammals maintained a high UI with similar levels of polyunsaturated fatty acids, especially 2263. Our results suggest that in heart, skeletal muscle and kidney cortex the activity of the elongases and desaturases are reduced in large mammals compared to small mammals. The allometric trends in membrane composition may be involved in modifying membrane permeability. It is proposed that the elevated degree of polyunsaturation in the membranes of several tissues from small mammals is related to their higher metabolic activity.This work was supported by an Australian Commonwealth Postgraduate Research Scholarship from the University of Wollongong to P. Couture and by a grant from the Australian Research Council to A.J. Hulbert. We wish to thank Voytek Mantaj for technical assistance.     

Import of phosphatidylethanolamine for the assembly of rat brain mitochondrial membranes

Mitochondria can synthesize phosphatidyl-ethanolamine (PE) through phosphatidylserine decarboxylase (PS decarboxylase) activity or can import this lipid from the endoplasmic reticulum. In this work, we studied the factors influencing the import of PE in brain mitochondria and its utilization for the assembly of mitochondrial membranes. Incubation of rat brain homogenate with [1-³H]ethanolamine resulted in the synthesis and distribution of ³H-PE to subcellular fractions. T-wenty-one percent of labeled PE was recovered in purified mitochondria. The import of PE in mitochondria was studied in a reconstituted system made of microsomes (donor particles) and purified mitochondria (acceptor particles). Ca⁺² and nonspecific lipid transfer protein purified from liver tissue (nsL-TP) enhanced the translocation process. ³H-PE synthesized in membrane associated to mitochondria (MAM) could also translocate to mitochondria in the reconstituted system. Exposure of mitochondria to trinitrobenzensulfonic acid (TNBS) resulted in the reaction of more than 60% of ³H-PE imported from endoplasmic reticulum and of about 25% of ¹⁴C-PE produced in mitochondria by decarboxylation of ¹⁴C-PS. Moreover, the removal of the outer mitochondrial membrane by digitonin treatment, resulted in the loss of ³H-PE, but not ¹⁴C-PE. These results indicate that labeled PE imported in mitochondria is mainly localized in the outer mitochondrial membrane, whereas PE produced by PS decarboxylase activity is confined to the inner mitochondrial membrane. Phospholipase C hydrolyzed 25–30% of both PE radioactivity and mass of the outer mitochondrial membrane indicating an asymmetrical distribution of this lipid across the membrane.Mr. Carlo Ricci is thanked for his skillful technical assistance. This work has been supported by a grant from the Ministry of Education, Rome, Italy.     

Specific Activity of Brain Palmitoyl-CoA Pool Provides Rates of Incorporation of Palmitate in Brain Phospholipids in Awake Rats

Abstract: In vivo rates of palmitate incorporation into brain phospholipids were measured in awake rats following programmed intravenous infusion of unesterified [9,10-³H]palmitate to maintain constant plasma specific activity. Animals were killed after 2–10 min of infusion by microwave irradiation and analyzed for tracer distribution in brain phospholipid and phospholipid precursor, i.e., brain unesterified palmitate and palmitoyl-CoA, pools. [9,10-³H]Palmitate incorporation into brain phospholipids was linear with time and rapid, with >50% of brain tracer in choline-containing glycerophospholipids at 2 min of infusion. However, tracer specific activity in brain phospholipid precursor pools was low and averaged only 1.6–1.8% of plasma unesterified palmitate specific activity. Correction for brain palmitoyl-CoA specific activity increased the calculated rate of palmitate incorporation into brain phospholipids (0.52 nmol/s/g) by ∼60-fold. The results suggest that palmitate incorporation and turnover in brain phospholipids are far more rapid than generally assumed and that this rapid turnover dilutes tracer specific activity in brain palmitoyl-CoA pool owing to release and recycling of unlabeled fatty acid from phospholipid breakdown.     

Lipid specificity for membrane mediated partial unfolding of cytochrome c

In this study we investigated the lipid specificity for destabilization of the native structure of horse heart cytochrome c by model membranes. From (i) the enhanced release of deuterium from deuterium-labelled cytochrome c and (ii) the increased proteolytic digestion of the protein in the presence of anionic lipids, it was concluded that these lipids are able to destabilize the native structure of cytochrome c. Changes in the absorbance at 695 nm indicated that the destabilization was accompanied by a diminished ligation of Met-80 to the heme. Beef heart cardiolipin was found to be more effective than DOPS, DOPG or DOPA, while no protein destabilization was observed in the presence of the zwitterionic lipid DOPC or, surprisingly, in the presence of E. coli cardiolipin. Experimnts with mitoplasts showed that the protein can also be destabilized in its native structure by a biological membrane.